Disposable self-shielding hypodermic syringe

ABSTRACT

There are disclosed herein medical syringe and catheter devices which preferably can be disposable and non-reusable and which have features to minimize users from accidentally stabbing themselves before or after use. They comprise relatively slidable members for covering and uncovering a needle. A butterfly wing IV catheter is disclosed including a body having laterally extending tabs to help hold the catheter in place, along with a slide member configured to fit and slide within an opening in the body member and which member includes a needle and a hollow fitting for receiving flexible tubing. The slider member includes a boss adapted to fit within pockets of the body member to define respective extended and retracted positions of the needle.

This is a Division of application Ser. No. 07/783,825 filed Oct. 29, 1991 now U.S. Pat. No. 5,279,581, which is a continuation-in-part of application Ser. No. 07/581,734 filed Sep. 12, 1990, and now U.S. Pat. No. 5,108,378 which is a cip of Ser. No. 07/521,243 filed May 9, 1990 now abandoned.

INTRODUCTION

The present invention is, in general, an improved hypodermic syringe and, in particular, a stackable, disposable, non-reusable, hypodermic syringe with features to:

prevent users or patients from accidentally stabbing themselves before or after use;

insert the needle with preferred orientation;

render it unusable after use;

measure precisely amounts of injected or withdrawn fluid; and

retract the needle with one finger after use.

The improvements in this additional application include further features to prevent medical practitioners and other users from being stuck by needles after they have been in contact with body fluids from patients:

a movable shield which is positioned over a standard VACUTAINER holder needle;

an intravenous catheter needle shield; and

an adaptation of the intravenous catheter needle shield to include "butterfly wings" thereon to facilitate stable holding of said needle holder during intravenous injection or withdrawal of fluids.

Some of the foregoing features are available in a double-needle embodiment.

BACKGROUND OF THE INVENTION

The development of safe medical syringes and procedures for using them have long been a matter of concern, especially to the medical field. Many medical procedures, such as the transfusion of blood and the administration of insulin in some circumstances, require the use of needles and syringes, with their attendant hazard of accidental scratch or puncture. Recently, the risk has increased dramatically of contracting virulent and fatal or near-fatal infections during legitimate medical procedures using needles, and the general public as well as the medical profession has demanded safer products and procedures.

Efforts to minimize the risk of accidental infection have been made for several decades. Some representative efforts are:

La Marche U.S. Pat. No. 1,921,034 discloses a protector case for a syringe of conventional type, which allows for the needle to be exposed the correct amount for the type of shot to be given, and to be retracted after use to protect others from being accidentally punctured thereby.

Bastien Pat. No. 2,571,653 discloses a syringe body encased in a slidable protector case, having built-in detents to hold the needle in a retracted position prior to and following use, while permitting the needle to be exposed the correct length for the purpose.

Tschischeck Pat. No. 2,586,581 discloses an add-on magnifying attachment for syringes. It has no relevance to the present invention, except to disclose one means of making the scale more readable and the dosage more accurate.

Norgren Pat. No. 3,943,927 discloses an injection device to be carried by persons having allergic reactions to insect or snake bites, or bee stings, where antitoxins or other emergency remedies need to be administered immediately under conditions of great physical or emotional stress. It has little relevance to the present invention.

Ethington Pat. No. 4,018,223 discloses a tactile-detent dosage metering device for use by persons with impaired vision.

Chen Pat. No. 4,728,321 discloses a means to render a needle unfit for further use, by placing thereon a syringe cap and permanently cementing it in place.

Bogan Pat. No. 4,738,663 discloses a removable protective cover for the needle of a syringe.

Permenter et al. Pat. No. 4,795,493 discloses a syringe with needle shield which provides protection to users when the shield is moved to cover the needle. The mechanism provides detent positions in both extended and retracted positions, but not a permanently locked position.

None of the above references disclose, either singly or in combination, the structure and attendant features of the present invention, or those-of the improvements in this additional CIP application.

BRIEF DESCRIPTION OF THE PRESENT INVENTION

The basic invention is a combination hypodermic syringe/protector case, which consists of four principal parts:

1. needle

2. body;

2. plunger (and plunger seal); and

3. protector case.

The body of the hypodermic syringe has a rectangular, rather than the traditional circular, cross-section, allowing greater packaging density.

The plunger (and the bore) can have the traditional circular cross-section or, preferably, any non-circular shape, including rectangular or oval, which latter have several advantages, as enumerated hereinafter.

The rectangular cross-section permits encasing the syringe in a simple U-shaped channel, which acts as a protector case and slide, in which the syringe body can slide either way to reach one of its several physical states. If the plunger has an oval or flat rectangular cross-section, the thickness of the combined syringe and protector case is substantially the same as that of a syringe of the same capacity or volume, but with a conventional structure. The protector case preferably includes inwardly pressing fingers which, mating with shallow grooves formed into the sides of the syringe body, form detent mechanisms, described more completely hereinafter. The protector case also includes a shaped cut-out, in a flexible section, which acts as a shield to protect persons from the needle point both before and after use. These features are described in more detail hereinafter.

Before use, the syringe body is withdrawn from its functional position, and is held in place by a first detent mechanism, so that the needle is protected by a shield incoporated into the protector case.

If desired, the needle can have thereon a removable shield of conventional design, fabricated of a shrinkable material such that the application of heat, microwave, chemical or other energy will shrink the shield into intimate contact with the needle. Further, the protector case itself can also have thereon an appropriately shaped removable shield fitting over the needle end thereof, of the same shrinkable material as the needle shield. After use, the shield(s) can be replaced on the protector case and/or the needle, carried to a point of central disposal, and treated with heat, microwaves, chemicals or other processes that will shrink them into intimate contact with the needle, rendering it unusable thereafter.

Alternatively, when the protector case is withdrawn to its permanent position, and is no longer to be used, a block of shrinkable or meltable material can be inserted into the cavity between the sides of the protector case, over the whole length of the needle, which then can be shrunk or melted into an amorphous mass over the needle, rendering it unfit and unavailable for further use.

To prepare the syringe for use, the needle and protector case shields are removed, if present. The syringe body is slid forward from its storage position within the protector case to a position as determined by a second detent mechanism, exposing the correct length of needle for desired insertion depth.

When the injection has been completed or the blood has been drawn, the needle is withdrawn by retracting the syringe to a third, permanent position, where it is held in place by a third detent mechanism from which it cannot be moved without intent and only with considerable difficulty.

To transfer drawn blood or serum from the syringe, a conventional stoppered specimen tube is positioned in the shaped end of the protector case, with the stopper thereof adjacent to the needle tip. The tube is pressed transversely to the syringe body, forcing the flexible section of the protector case out of the way and permitting the stopper of the specimen tube to be forced onto the needle and the contents of the syringe emptied into the tube. This can be repeated as often as necessary, depending upon the number of specimens needed.

It is recognized by nurses and others who give shots regularly that a desired orientation of the needle when inserting it into a patient is with the tapered portion of the tip upwards, so that the depth of insertion can be gauged with respect to the needle opening and a blood vessel, for example. The rectangular shape makes it possible, during production, to automatically orient the needle with respect to the upper face of the syringe, so that the needle can be efficiently inserted, particularly under difficult light conditions, or with a struggling patient.

The benefits of the present invention are several:

1. the protector case provides protection from accidental injury both before and after use, and during transfer of fluids to specimen tubes;

2. the detent mechanism provides positive positioning of the syringe prior to, during, and after use;

3. the rectangular structure has several advantages:

a. close packing of multiple numbers during shipping and storage;

b. automatic positioning of the needle with respect the syringe body; and thus

c. convenient positioning of the needle for most effective insertion thereof into a patient;

d. prevention of needle re-use by shrinkable shields or meltable blocks of material;

4. the rectangular or oval shape of the plunger and internal cavity makes it easier to find and read the dosage markings.

Other features can be added to the above basic invention which give additional advantages:

5. the plunger can have attached thereto an extension, parallel to and extending toward the needle, with tactile detent features or markings thereon, indicating the volume of fluid expelled, for use in giving metered doses in situations where vision is impaired (in a darkened room, for example);

a. sight-impaired persons with diabetes, for example, would benefit by the use of such an instrument;

6. the syringe body can have a raised ridge on the needle end, so that the user can hold the syringe between thumb and middle finger and retract the syringe with the forefinger;

7. the protective case feature can be incorporated in a double-needle fixture, for use when multiple samples of a patient's blood, are to be obtained at the same time. A nurse or other medical person is at a substantial risk using a fixture of conventional design in this situation. With an unprotected-needle fixture, one hand must be occupied in holding the first needle in a patient's arm while the other hand must withdraw one container from the second needle and reinsert another thereon, perhaps several times, leaving the needle exposed each time. Or, even a fixture with a protected needle requires that the collecting container be screwed onto the fixture, requiring precise manipulation in an awkward situation. With the present invention, the needle is covered by the protective case while one container is easily exchanged for another.

To recap, the important features are:

1. rectangular shape of syringe and internal bore;

2. protector case which keeps needle protected during storage, after use, and during transfer of fluid to-specimen tubes;

3. shields of shrinkable or meltable material to render needle unreusable;

4. first, second and third detent mechanisms for positive positioning of syringe and needle with respect to protector case, before during and after use;

5. orientation of needle with respect to rectangular case to facilitate use in difficult situations; and

6. tactile detent metered dosage mechanism for use by persons with impaired vision or in dimly lighted situations.

The improvements in this application are:

1. an improved cross-sectional shape of the syringe body, reducing shrinkage and/or warpage due to non-uniform thickness of material;

2. an improved structure to the shield or protector case, including:

a. a stronger structure with less possibility of twisting and/or warpage;

b. an improved shape to the nose thereof in one embodiment; and

c. an improved structure for the flexible nose portion of the original embodiment;

3. an improved finger-boss structure for the one-finger withdrawal feature;

4. an improved and simplified detent mechanism;

5. a convenient means of applying identifying indicia to the syringe body;

6. an improved structure for the blood collection embodiment;

7. an improved structure to prevent withdrawing the plunger from the syringe body.

Further improvements to reduce the possibility of accidental needle sticks, contained in this additional application are:

1. a movable shield for standard VACUTAINER holders;

2. an improved intravenous catheter needle shield; and

3. an improved intravenous catheter needle shield with "butterfly wings" attached thereto for greater stability during injection of withdrawal of body fluids.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is an oblique isometric view of the present invention, disclosing the interrelationship of the various parts.

FIGS. 2A and 2B are plan and profile views, respectively, of the syringe in its storage state before use.

FIGS. 3A and 3B are plan and profile views, respectively, of the syringe in its extended state, ready for use.

FIGS. 4A and 4B are plan and profile views, respectively, of the syringe in its retracted state, following use.

FIGS. 5A and 5B are plan views of the syringe prior to, and during, insertion of the needle into a storage tube, respectively, for transfer of the fluid contents thereof.

FIG. 6 is a view of the syringe from the needle end thereof.

FIGS. 7A-D discloses cross-sectional shapes of the syringe at sections A-D of FIG. 2B, transverse to the longitudinal axis thereof.

FIG. 8 discloses a double-needle fixture incorporating some of features of the present invention.

FIGS. 9a, b and c discloses a tactile detent mechanism enabling use of the present invention in dim light or by those with vision impairment.

FIGS. 10-17 relate to the improvements disclosed in this present CIP application.

FIG. 10 discloses the improved shape of the syringe body in cross-section.

FIG. 11 discloses the improved syringe protector case structure.

FIG. 12 discloses the improved structure of the flexible nose of the syringe protector case.

FIG. 13 discloses a second embodiment of the nose shape of the syringe protector case.

FIG. 14 discloses the improved syringe protector case providing a data recording area.

FIG. 15 discloses the improved finger-boss permitting one finger withdrawal of the syringe.

FIG. 16 discloses an improved structure for the detent mechanism.

FIG. 17 discloses the improved structure of the blood collection embodiment of the syringe.

FIG. 18 and 18a disclose discloses an improved structure of the syringe body to prevent accidental removal of the plunger from the body.

FIGS. 19-27 disclose details of additional features claimed in this additional CIP application.

FIG. 19 is an oblique view of a needle-shielding VACUTAINER holder, with the needle thereof extended.

FIG. 19A is an oblique view of the needle-shielding VACUTAINER holder, with the needle thereof retracted.

FIG. 20 is an oblique view of the VACUTAINER holder body member.

FIG. 21 is an oblique view of the VACUTAINER holder slider member.

FIG. 22 is an oblique view of the needle shield of the intravenous catheter holder, extended.

FIG. 22A is an oblique view of the needle shield of the intravenous catheter holder, retracted.

FIG. 23 is an oblique view of the body member of the IV catheter holder.

FIG. 24 is an oblique view of the slider member of the IV catheter holder.

FIG. 25 is an oblique view of the "butterfly" version of the IV catheter holder, extended.

FIG. 25A is an oblique view of the "butterfly" version of the IV catheter holder, retracted.

FIG. 26 is an oblique view of the body of the "butterfly" holder.

FIG. 27 is an oblique view of the slider of the "butterfly" holder.

DETAILED DESCRIPTION OF THE PRESENT INVENTION

Turning now to FIG. 1, we see the syringe of present invention 10, including needle 12, body 14, plunger 16, seal 18, and protector case 20.

Needle 12 is preferably a standard needle of diameter and length appropriate to the desired use, although the benefits of the invention may be realized with a needle of nearly any configuration. To obtain the benefits of needle orientation, as explained hereinafter, needle 12 preferably has thereon beveled point 22, with beveled portion 24 being all on one side thereof. It is preferably affixed to body 14 by a standard press fit, such as is well known in the art, although it could be permanently affixed thereto, or have bayonet or screw attachment means, if the use so dictated.

Body 14 preferably has a shape substantially rectangular in cross-section, as disclosed more clearly in FIG. 6A, although it could have an oval or other flattened shape to obtain the benefits enumerated hereinafter. The rectangular shape has two short sides 26a and 26b, and two long sides 28a and 28b, thereon. Body 14 has formed therein, preferably into short sides 26a and 26b thereof, three pairs of grooves, 30a and 30b, 32a and 32b, and 34a and 34b, whose function is explained hereinafter. Grooves 30a and 30b have straight sides thereto, while grooves 32a and 32b, and 34a and 34b, are shallow, with sloping sides thereto, as disclosed more clearly in FIG. 2. Bore 36 of body 14 preferably has a shape rectangular in cross-section, to obtain the benefits described hereinafter, although it could be round or, in this case, preferably oval.

Plunger 16 is of a substantially standard structure, except that it has a cross-sectional shape to match that of bore 36, that is, greater in breadth than in height, and preferably rectangular in cross-section. Plunger 16 also has thereon a seal 18 of a resilient material, to prevent any leakage of contained fluid during use of syringe 10.

Protector case 20 contains therein several features which permit the attainment of several of the benefits of the present invention. It fits snugly but slidably around the external surface of body 12. To permit the insertion of a deformable block of material around the needle and realize the benefit of rendering the syringe unusable, case 20 preferably has a U-shape thereto, with an open space above the needle. This is disclosed most clearly in FIGS. 6A and 6B, including lips 38a and 38b thereon extending over the edge of body 12 to keep it snugly within case 20. The external shape of case 20 is preferably substantially rectangular in cross-section, to permit stacking and realize the benefits thereof for shipping and storing before use, but it could be oval or elliptical and accomplish most of the same purposes. The internal shape of case 20 is complementary to the external shape of body 12. Case 20 has inwardly projecting fingers 40a and 40b which, in cooperation with grooves 30a and 30b, 32a and 32b, and 34a and 34b, forms a detent means and, in cooperation therewith, defines third, first and second positions of body 14 within case 20, respectively.

Case 20 further includes flexible section 40, extending beyond point 22 when syringe 10 is in first and third detent position, providing protection from needle point 22, as explained hereinafter. Flexible section 40 includes upwardly curving portion 42, which has in the end thereof wide V-shaped notch 44. Finally, case 20 includes friction means or finger boss 41, which could be a simple ridge across the end of case 20, as shown in FIGS. 1B, 2B, 3B, 4A and 4B, to exert pressure thereon by a finger.

OPERATION OF THE PRESENT INVENTION

The operation and novel features of syringe 10 will now be explained.

As described hereinbefore, Syringe body 14 preferably has an external cross-section which is substantially rectangular in shape, to match the internal cross-section of protector case 20. Body 14 movably slides within protector case 20. When a user selects syringe 10 from a quantity thereof, body 14 will be in first position, as defined by inwardly extending fingers 40a and 40b, resting in grooves 32a and 32b, respectively. Needle 12 will be affixed to body 14 by needle placement equipment (not shown) so that beveled portion 24 of needle 12 will be facing toward the open space between inwardly extending fingers 38a and 38b, for a purpose described hereinafter. The beveled portion can also be oriented toward one of the other sides of the syringe, if desired.

To illustrate the benefits of syringe 10, assume that it will be used for withdrawing blood from a patient, and transferring it to sealed containers such as stoppered test tubes for testing and/or further processing.

To use the syringe, body 14 will be pushed toward its second position, so that needle 12 will be extend through V-shaped notch 44. Body 12 will come to rest when inwardly extending fingers 40a and 40b slide into notches 34a and 34b, respectively. The sloping sides of notches 32a and 32b, and 34a and 34b, permit inwardly extending fingers 40a and 40b to easily slide out of and into said notches, while providing a distinct "detent" feel for users, so that they know when needle 12 has been extended the desired amount for proper insertion into a vein. As anyone knows who has given shots, inserting a needle into a vein can be done with much greater accuracy when beveled portion 24 is facing upward, so that the point and the hole in the needle can be seen. Because the pre-use placement of needle 12 gives it the desired orientation, the user does not need to rotate it to insure accurate placement thereof. For some purposes, e.g., inserting a needle into the side of a vein, other orientations may be preferred, however, and proper placement of the needle will be facilitated by the substantially rectangular shape.

As needle 12 is inserted into the vein, upwardly sloping portion 42 both encourages the correct angle of insertion, and prevents needle 12 from being inserted too deeply, as portion 42 will come to rest against the patient's skin at the correct depth of penetration.

When plunger 16 has been withdrawn so as to obtain the desired amount of blood in body 14, the user preferably holds body 14 with the thumb and middle finger of one hand, places the forefinger on ridge (or friction means) 46 and, by finger pressure thereon, withdraws body 14 from case 20. When body 14 has been withdrawn to post-use position three, inwardly extending fingers 40a and 40b snap into straight-sided groove 30a and 30b, respectively. While body 14 is being moved to position three, needle 12 is also being withdrawn from the patient, with the sterile surface of upwardly curving portion 42 providing resistance for tender or fragile skin against the withdrawing needle.

Although detent fingers 40a and 40b easily slide across the sloping sides of grooves 32a and 32b, the immovable fit of fingers 40a and 40b in straight-sided grooves 30a and 30b, respectively, prevent the movement of syringe body 14 from position three without the destruction of protector case 20. This feature provides much desired and needed protection against accidental stab wounds by unprotected needles during handling thereof after removal from the patient.

The transfer of blood from syringe 10 to other containers for further processing or testing can now take place easily and safely with the aid of flexible section 40 and upwardly curving section 42 thereof. As disclosed in FIG. 4A, stopper 48 of container 50 is a standard stopper of rubber or other resilient material which can be pierced easily by a needle and yet prevent external contamination. Container 50 is placed in V-shaped notch 44, and pressed transversely to the axis of case 20 and needle 12. Because of the flexible nature of flexible portion 40, it moved aside, allowing stopper 48 to be brought into line with needle 12. Stopper 48 is then pushed against needle 12 by longitudinal pressure on container 50, and is pierced thereby, enabling a desired quantity of blood to be transferred into container 50 by pressure on plunger 16. This procedure can be repeated as often as required, until the requisite number of samples have been obtained. It will be seen immediately by those skilled in the art that this procedure is more convenient than present procedures, and is substantially safer, especially where several samples have to be withdrawn from the same syringe. Extended fingers 52, which are not connected to flexible portion 40, provide substantial protection against accidental stabbing, either of self or other nearby parties, by the holder.

This feature of protector case 20 is adaptable to a double-ended needle fixture 54, as disclosed in FIG. 8.

Body 56 is encased in protector case 20a, which has some of the same features of protector case 20, as described hereinbefore, but with certain changes to facilitate usage in drawing multiple samples sequentially. Body 56 has first end 58 and second end 60, with needles 12a and 12b thereon, respectively. Protector case 20a includes extended portion 40a, which is fixedly attached to first end 58 of body 56, and extended portion 40b, which slides on second end 60. Each of extended portion 40a and 40b has upwardly curving portion 42a and 42b thereon, respectively, with V-shaped notches 46a and 46b therein, again respectively.

In this case, extended portion 40b slides on second end 60 of body 56, to permit insertion of needle 12b into a patient. Portion 40a extends permanently beyond the end of needle 12a, however, to give protected but convenient access thereto, as described hereinbefore, when obtaining multiple specimens from one patient.

Both syringe embodiment 10 and fixture embodiment 54 can easily be made unusable. Block 62 of deformable material is pressed between extending fingers 48 of the protector case, and some form of external energy, such as heat or microwave energy, is applied thereto, melting and otherwise deforming block 62 around the needle and the end of body 14, rendering syringe 10 unfit for further use.

FIG. 9 discloses a tactile indicator for use by those with vision impairment or in inadequate light. Plunger 16 has affixed thereto extension 64, which extends along exposed external surface 66 of syringe body 14, between edges 38a and 38b. Extension 64 also has on the tip thereof, nob 68 which mates with depressions 70, impressed into surface 66 of body 14, forming tactile and/or aural detents 72. As the plunger was depressed, the feel or sound of detents 72 would indicate to one experienced in the use thereof the quantity of fluid injected. Surface 66 also could have formed thereon raised symbols 72, for example, Braille symbols. Detents 72 also could be formed by other means than knobs and depressions.

BRIEF DESCRIPTION OF THE FEATURES OF THE IMPROVED SYRINGE

Briefly, the improvements which are the subject of this application relate to:

1. an improved cross-sectional shape of the syringe body, reducing shrinkage and/or warpage due to uneven thickness of material (FIG. 10);

2. an improved structure to the shield or protector case, including:

a. a stronger structure with less possibility of twisting and/or warpage (FIG. 11);

b. an improved structure for the flexible nose portion of the original embodiment (FIG. 12);

c. an improved shape to the nose thereof in second embodiment (FIG. 13);

3. a convenient means of applying identifying indicia to the syringe body (FIG. 14);

4. an improved structure for the one-finger withdrawal feature (FIG. 15);

5. an improved structure for the detent mechanism (FIG. 16);

6. an improved structure for the blood collection embodiment (FIG. 17); and

7. an improved structure to prevent accidental withdrawal of the plunger from the syringe body (FIG. 18).

Turning now to FIGS. 10-17, we see disclosed in greater detail the improvements which are the subject of this application.

FIG. 10 discloses one embodiment of the improved external shape in cross-section of improved syringe body 14A, which is molded of any of several well-known plastics used in medical products. This embodiment is a horizontal H-shape 15, having extensions 17A-17D extending tangentially outward from the surface of syringe body 14A so that the extremities thereof define a shape conforming to the shaped internal configuration of syringe protector case 20A, which is disclosed here as having a basic horizontal rectangular shape. However, body 14A could have any of a number of external shapes which lend themselves to the requirements of the present invention. For example, extensions 17A-17D could extend radially from body 14A in a flattened X-shape and still remain within the spirit and intent of the improvement, which is to inhibit dimensional shrinkage and distortion of the plastic material by providing an substantially uniform thickness of plastic throughout the cross-sectional shape, and providing a uniform sliding friction between plunger 16 and body 14A, and between body 14A and syringe shield or protector case 20A.

FIGS. 11-13 disclose, in longitudinal-section, improved protector case 20A, with several improved features therein giving important advantages over the existing case structure 20:

i. cross-member 19A gives greater lateral support to side-members 21A and 21B. Member 19A, by engaging improved friction means, or finger-engaging boss 18A on the nose-end of body 14A, provides:

a. a uniform stop in the "UNUSED" position of syringe 10, with needle 12 wholly retracted behind protective case 20A, yet easily extendible for use; and

b. a safe storage position of syringe 10 in the "USED" condition, by releasably engaging boss 18A on the breech-edge of member 19A, as hereinafter explained more fully. This position prevents unintentional re-use of the syringe, but does not require damaging case 20A by movement of syringe body 14A from said "USED" position in order to extend the needle for re-use under appropriate conditions (FIG. 11);

2. improved nose structure 41A, in which forwardly extending side fingers 53A and 53B are separated from flexible section 40, having upwardly-curved portion 42, by slots 43A and 43B. By locating slots 43A and 43B inwardly from inner surfaces 55A and 55B of fingers 53A and 53B, lips 57A and 57B are formed, giving greater lateral support to fingers 53A and 53B (FIG. 12);

3. improved nose shape 57 to protector case 20B provides an embodiment which has certain advantages over the original embodiment with upwardly curving portion 42, as hereinafter discussed more fully (FIG. 13).

FIG. 14 discloses data recording area 59 which can be formed on protector case 20A or 20B, or other configurations thereof, giving easy and convenient means of recording data appropriate to a particular use or patient directly on the syringe involved.

FIG. 15 discloses boss 61, which provides certain advantages over friction means 41 for the one-finger withdrawal feature. Boss 61 includes, on the nose end thereof, ramps 63a and 63b forming finger stall 65 therebetween. Boss 61 is shaped to permit cross-member 19A to slide over boss 61, yet warns the user, by the resistance to movement that he is doing something out-of-the-normal pattern of syringe use.

FIG. 16 discloses an improved structure of inwardly directed fingers 67A and 67B of the detent mechanism, allowing greater ease of withdrawal from a detent position, yet providing definite warning to a user that the syringe body is being moved from "UNUSED" position, or from the "needle-extended" position.

FIG. 17 discloses an improved structure for the blood collection embodiment, giving much greater protection to the user. Use of the flexible section 40 permits blood or other fluids to be transferred to one or more receptacles as the occasion requires, without exposing the handler to the contaminated needle.

FIG. 18 discloses an improved structure to the internal bore of the syringe body, with lip 69 preventing accidental withdrawal of plunger 16 from syringe body 14A.

The fixed nose and flexible nose embodiments of the protector case can be combined with the blood collection or the blood transfer embodiments, and the data recording feature can be applied to any of these combinations. The improved detent mechanisms and finger boss can be combined with the other combinations in any appropriate manner.

As an example of the way in which the novel features of application No. 07/581,734 can be applied to various fluid collection fixtures, FIGS. 19-21 disclose safety holder 69 for double-ended syringe needles 70, which greatly reduces the possibility of accidental injury by needle stick to medical personnel. Double-ended needle 70, having points 72a and 72b (not shown) thereon, is attached to longitudinal cylindrical body 74, the interior of which is sized to receive a vacuum-sealed fluid container 75 (i.e., the widely-used VACUTAINER container, shown in dashed outline). The rubber stopper thereof is inserted first so that it will be pierced by needle point 72b (not shown) of double-ended needle 70. Body 74 also has closed end 80, which includes hub 82 for mounting needle 70 thereon, hub 82 incorporating any of the structures by which needles can be attached thereto. Body 74 has formed in the sides thereof longitudinal channels 78a and 78b. Closed end 80 also has on the periphery thereof openings 84a and 84b (not shown) opening into channels 78a and 78b.

Slidingly associated with body 74 is needle guard 84, having a U-shape, and including annular face 86 thereon, which has collared aperture 88 therein for allowing needle 70 to extend therethrough. On the periphery of annular face 86 are longitudinal extensions 90a and 90b which, extending rearwardly from face 86 through openings 84a and 84b, slide in channels 78a and 78b, respectively. On the ends of extensions 90a and 90b are tabs 92a and 92b, respectively, which extend laterally therefrom and, when needle guard 84 is pulled forward to cover needle point 72a, snap into apertures 94a and 94b when needle point 72a is surrounded and protected by annular face 86 and collar 88, making it difficult for a user to be injured thereby.

In use, safety holder 69 comes with needle guard 84 extended, as shown in FIG. 19A. When it is desired to transfer fluid (blood for example) from sealed container 75 to another container, the rubber stopper end of container 75 is inserted into cylindrical body 74, and pressed onto needle point 72b. Longitudinal extension 90a and 90b are pressed inwardly, releasing tabs 92a and 92b from apertures 94a and 94b, permitting needle guard 84 to be slid rearwardly, exposing needle 70 and permitting it to be inserted into another container. When the fluid is transferred, longitudinal extensions 90a and 90b are pressed inwardly, permitting needle guard 84 to be slid forward, withdrawing needle 70 from the container and covering up needle point 72a at the same time, rendering it safe.

Another example of the way in which the features of application No. 07/581,734 can be combined in novel and useful ways is disclosed in FIGS. 22-24. FIG. 22 discloses intravenous (IV hereinafter) catheter holder 96, which is attached by flexible hose 98 to another fluid container. Holder 96 includes body member 100 and slider member 102, and incorporates:

1. improved detent finger shapes 67a and 67b, as disclosed in FIGS. 22,22A, and 23, and earlier in FIGS. 14,16, and 17, allowing more efficient and economical mold structures;

2. cross-strap 19a, as disclosed in FIGS, 22,22A, and 23, and earlier in FIGS. 11-13 and 17, giving greater strength and stability to body member 100;

3. improved rectangular cross-section of slider member 102, as disclosed in FIG. 24, and earlier in FIG. 10;

4. improved nose shape 57, disclosed in FIGS. 22, 22A, and 23, and earlier in FIGS. 13 and 14, which promotes proper orientation of the needle for most efficient and least-painful insertion into a patient's blood vessel; and

5. finger boss 104, while differing somewhat in shape from boss 41 disclosed in FIGS. 1-6, and boss 61 disclosed in FIG. 15, performs-the same function, plus having the added advantage that it is less expensive to fabricate the mold for, is easier to withdraw from the mold, and to assemble into completed catheter holder 96.

A third example of combining the features of earlier application No. 07/581,734 is disclosed in "butterfly wing" IV catheter holder 106, as disclosed in FIGS. 25-27.

FIG. 25 discloses IV catheter 106 with needle extended, while FIG. 25A discloses catheter 106 with needle 70 retracted to reduce the posibility of needle stick to medical personnel. A flexible tube is attached to hollow fitting 107, and leads to a container of fluid.

"Butterfly wings" have been applied to IV catheter holders prior to this, as they help hold catheters in place for extended periods, when they otherwise might become dislodged due to patient movement. Laterally extended tabs ("butterfly wings") 108a and 108b are molded into body member 110 of fixture 106, as disclosed in FIGS. 25,25A, and 26. Preferably, body member 110 is molded of a plastic material which can withstand repeated bendings without experiencing structural fatigue which might lead to structural failure and loss of attachment to the patient.

As seen more clearly in FIGS. 26 and 27, fixture 106 includes two components: body member 110 and slider member 112. Member 112 includes needle 70 and hollow fitting 107, to which a flexible tubing (not shown) is attached. Member 112 also includes boss 114, which fits into first pocket 116a and second pocket 116b, which define extended and retracted positions of needle 70, respectively. When needle 70 is retracted, hollow fitting 107 extends through aperture 118, whereas when needle 70 is extended, the flexible tubing is pulled into aperture 118.

Those skilled in the art will be able to see many additional combinations of the novel features disclosed herein which will be desirable to incorporate into syringes and associated fixtures for collecting, storing and transferring body fluids, including blood. It is intended that these other combinations, insofar as they are encompassed by the claims included herein, are intended to be included in the coverage of this application.

The terms and expressions which have been employed in the foregoing specification are used therein as terms of description and not of limitation, and there is no intention, in the use of such terms and expressions, of excluding equivalents of the features shown and described, or portions thereof, it being recognized that the scope of the invention is defined and limited only by the claims which follow. 

We claim:
 1. A butterfly wing IV catheter comprising a body member having laterally extending tabs to help hold the catheter in place for an extended period of time, the body member having an opening therethrough and a slot in a wall of the body member having first and second spaced pockets, anda slide member configured to fit and slide within the opening in the body member and comprising a needle and a hollow fitting to which flexible tubing can be attached, the slider member including a boss adapted to fit into the first and second pockets of the body member to define respective extended and retracted positions of the needle, and wherein when the needle is retracted the hollow fitting extends outwardly from the opening in the body member and wherein when the needle is extended the hollow fitting is adapted to pull flexible tubing into an end of the opening of the body member.
 2. A catheter as in claim 1 wherein the needle has a bevel at the outer end thereof, the body member has a rectangular inner cross-section and the slider member has a rectangular outer cross-section, and wherein said inner and outer cross-sections interact to prevent rotation of the slider member within the body member and thus maintain a desired orientation of the needle bevel.
 3. A butterfly wing IV catheter comprising a body member having laterally extending tabs to help hold the catheter in place for an extended period of time, the body member having an opening therethrough and a slot in a wall of the body member having first and second spaced pockets,a slide member configured to fit and slide within the opening in the body member and comprising a needle and a hollow fitting to which flexible tubing can be attached, the slider member including a boss adapted to fit into the first and second pockets of the body member to define respective extended and retracted positions of the needle, and wherein when the needle is retracted the hollow fitting extends outwardly from the opening in the body member and wherein when the needle is extended the hollow fitting is adapted to pull flexible tubing into an end of the opening of the body member, and wherein the body member includes a slot extending between the first and second spaced pockets and includes protrusions adjacent to and defining the first and second spaced pockets, the boss of the slider member extends into the slot and includes an inclined surface on a proximal side thereof which can wedge under the respective protrusions such that when the boss is forced rearward, protrusions flex outward allowing the boss to move rearward past the protrusions and into the second spaced pocket to retain the needle in the retracted position thereof.
 4. A catheter as in claim 3 wherein the boss has a vertical surface on a distal side thereof which interacts with the protrusions which form the second spaced pocket and which, when the boss is moved rearward past protrusions and into the second pocket, prevents the slider from moving forward to expose the needle.
 5. A butterfly wing IV catheter comprising a body member having laterally extending tabs to help hold the catheter in place for an extended period of time, the body member having an opening therethrough and a slot in a wall of the body member having first and second spaced pockets,a slide member configured to fit and slide within the opening in the body member and comprising a needle and a hollow fitting to which flexible tubing can be attached, the slider member including a boss adapted to fit into the first and second pockets of the body member to define respective extended and retracted positions of the needle, and wherein when the needle is retracted the hollow fitting extends outwardly from the opening in the body member and wherein when the needle is extended the hollow fitting is adapted to pull flexible tubing into an end of the opening of the body member, wherein the needle has a bevel at the outer end thereof, the body member has rectangular inner cross-section and the slider member has a rectangular outer cross-section, and wherein said inner and outer cross-sections interact to prevent rotation of the slider member within the body member and thus maintain a desired orientation of the needle bevel, and wherein the body member includes a slot extending between the first and second spaced pockets and includes protrusions adjacent to and defining the first and second spaced pockets, the boss of the slider member extends into the slot and includes an inclined surface on a proximal side thereof which can wedge under the respective protrusions such that when the boss is forced rearward, protrusions flex outward allowing the boss to move rearward past the protrusions and into the second spaced pocket to retain the needle in the retracted position thereof.
 6. A catheter as in claim 5 wherein the boss has a vertical surface on a distal side thereof which interacts with the protrusions which form the second spaced pocket and which, when the boss is moved rearward past protrusions and into the second pocket, prevents the slider from moving forward to expose the needle. 